EP2331780B1 - High security lock - Google Patents
High security lock Download PDFInfo
- Publication number
- EP2331780B1 EP2331780B1 EP09812293.0A EP09812293A EP2331780B1 EP 2331780 B1 EP2331780 B1 EP 2331780B1 EP 09812293 A EP09812293 A EP 09812293A EP 2331780 B1 EP2331780 B1 EP 2331780B1
- Authority
- EP
- European Patent Office
- Prior art keywords
- bolt
- lock
- gear
- user input
- retraction
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
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Images
Classifications
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- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B37/00—Permutation or combination locks; Puzzle locks
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- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B47/00—Operating or controlling locks or other fastening devices by electric or magnetic means
- E05B47/06—Controlling mechanically-operated bolts by electro-magnetically-operated detents
- E05B47/0676—Controlling mechanically-operated bolts by electro-magnetically-operated detents by disconnecting the handle
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- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B63/00—Locks or fastenings with special structural characteristics
- E05B63/06—Locks or fastenings with special structural characteristics with lengthwise-adjustable bolts ; with adjustable backset, i.e. distance from door edge
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- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B9/00—Lock casings or latch-mechanism casings ; Fastening locks or fasteners or parts thereof to the wing
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- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B9/00—Lock casings or latch-mechanism casings ; Fastening locks or fasteners or parts thereof to the wing
- E05B9/08—Fastening locks or fasteners or parts thereof, e.g. the casings of latch-bolt locks or cylinder locks to the wing
- E05B9/082—Fastening locks or fasteners or parts thereof, e.g. the casings of latch-bolt locks or cylinder locks to the wing with concealed screws
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- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B47/00—Operating or controlling locks or other fastening devices by electric or magnetic means
- E05B47/0001—Operating or controlling locks or other fastening devices by electric or magnetic means with electric actuators; Constructional features thereof
- E05B2047/0014—Constructional features of actuators or power transmissions therefor
- E05B2047/0015—Output elements of actuators
- E05B2047/0017—Output elements of actuators with rotary motion
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- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B47/00—Operating or controlling locks or other fastening devices by electric or magnetic means
- E05B47/0001—Operating or controlling locks or other fastening devices by electric or magnetic means with electric actuators; Constructional features thereof
- E05B2047/0014—Constructional features of actuators or power transmissions therefor
- E05B2047/0018—Details of actuator transmissions
- E05B2047/002—Geared transmissions
- E05B2047/0021—Geared sectors or fan-shaped gears
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- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B47/00—Operating or controlling locks or other fastening devices by electric or magnetic means
- E05B47/0001—Operating or controlling locks or other fastening devices by electric or magnetic means with electric actuators; Constructional features thereof
- E05B2047/0014—Constructional features of actuators or power transmissions therefor
- E05B2047/0018—Details of actuator transmissions
- E05B2047/0024—Cams
- E05B2047/0025—Cams in the form of grooves
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- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B47/00—Operating or controlling locks or other fastening devices by electric or magnetic means
- E05B47/0001—Operating or controlling locks or other fastening devices by electric or magnetic means with electric actuators; Constructional features thereof
- E05B2047/0014—Constructional features of actuators or power transmissions therefor
- E05B2047/0018—Details of actuator transmissions
- E05B2047/0026—Clutches, couplings or braking arrangements
- E05B2047/0031—Clutches, couplings or braking arrangements of the elastic type
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- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B47/00—Operating or controlling locks or other fastening devices by electric or magnetic means
- E05B47/0001—Operating or controlling locks or other fastening devices by electric or magnetic means with electric actuators; Constructional features thereof
- E05B47/0002—Operating or controlling locks or other fastening devices by electric or magnetic means with electric actuators; Constructional features thereof with electromagnets
- E05B47/0003—Operating or controlling locks or other fastening devices by electric or magnetic means with electric actuators; Constructional features thereof with electromagnets having a movable core
- E05B47/0005—Operating or controlling locks or other fastening devices by electric or magnetic means with electric actuators; Constructional features thereof with electromagnets having a movable core said core being rotary movable
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- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B47/00—Operating or controlling locks or other fastening devices by electric or magnetic means
- E05B47/0001—Operating or controlling locks or other fastening devices by electric or magnetic means with electric actuators; Constructional features thereof
- E05B47/0012—Operating or controlling locks or other fastening devices by electric or magnetic means with electric actuators; Constructional features thereof with rotary electromotors
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- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
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- Y10T292/08—Bolts
- Y10T292/096—Sliding
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- Y10T292/1018—Gear
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- Y10T70/7062—Electrical type [e.g., solenoid]
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
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- Y10T70/70—Operating mechanism
- Y10T70/7051—Using a powered device [e.g., motor]
- Y10T70/7062—Electrical type [e.g., solenoid]
- Y10T70/7068—Actuated after correct combination recognized [e.g., numerical, alphabetical, or magnet[s] pattern]
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
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- Y10T70/7051—Using a powered device [e.g., motor]
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- Y10T70/713—Dogging manual operator
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- Y10T70/7181—Tumbler type
- Y10T70/7198—Single tumbler set
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- Y10T70/7243—Interset tumblers
- Y10T70/7249—Tumblers released
- Y10T70/7254—Fence held spaced from tumblers
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- Y10T70/7322—Permutation
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- Y10T70/7424—Tampering prevention or attach defeating
- Y10T70/7435—Hidden or covered dial
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
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- Y10T70/70—Operating mechanism
- Y10T70/7441—Key
Definitions
- the present invention relates generally to locks, and more specifically, to high security locks adapted for use in safes and other security structures or areas.
- the structure typically includes a lock mechanism, and the structure is generally designed to be accessible only by a select few individuals who are entrusted with a predetermined combination code that facilitates the unlocking of the mechanism.
- Unauthorized persons will use simple lock picking tools as well as sophisticated equipment that can apply high mechanical forces or an electric or magnetic field to the lock mechanism in order to manipulate the components within the lock mechanism.
- lock mechanisms have been improved to resist these sophisticated lock picking methods.
- Mechanical and/or electrical elements have been used in locks to provide complicated barriers to a potential unauthorized person attempting to break into the structure.
- unauthorized persons continue to attack even these improved lock mechanisms, including drilling into the interior of the lock mechanism through lock casing openings.
- Locations on the lock casing that are subject to frequent attack include the mounting bolts and the spindle mount where a spindle shaft from the combination dial enters the lock casing.
- Section 4.7.4 “Endurance Test” requires that a sample lock be “cycled through fifty combination changes including three open and close verifications after each change” to ensure proper combination setting functionality.
- Section 4.7.7 “Resistance to Unauthorized Opening Test,” requires that the lock cannot be opened by mechanical manipulation or autodialing of a computer-assisted device for at least a period of 20 hours.
- EP 0522115 describes a locking mechanism for a safe which has an engagement element movable from a disengaged position to an engageable position thereof.
- the engagement element is put in its engageable element to drive a lock-bolt to an unlocking position.
- the engagement element is connected to an electric motor having two magnetic detents, corresponding to the disengaged and engageable position.
- the required electrical power is generated solely during the course of the user inputting a code to put the engagement element into its engageable position. Once the engagement is obtained, the movement of the lock-bolt to its unlocking position is obtained strictly manually. A subsequent unlocking requires the provision of a correct code.
- FIG. 1 illustrates one embodiment of a high security lock 10 coupled, for example, to a structure door 12, and including a lock casing 14 and a user input device 15.
- the user input device 15 of this embodiment of the lock 10 is a mechanical lock dial 24 disposed within a dial housing 16.
- a dust cover 18 may be coupled to the dial housing 16 in a removable manner using suitable snap-fit connectors 20, for example, and includes an aperture 22 through which the lock dial 24 extends.
- the dial 24 may be rotated to input a numerical combination and, as will be explained below, the numbers of the combination are viewable through a window 26 in the dial housing 16 via a reflection in a mirror 28.
- FIG. 2 illustrates an exploded view of the user input device 15 and its contents.
- the dial 24 includes a protruding portion 30 which may be manually gripped by a user, and a plate portion 32 that includes the numerical combination numbers 34 on the backside thereof (see FIG. 3 ).
- a brass insert 36 is rigidly secured to the dial 24 using screw fasteners 38.
- the brass insert 36 can provide weight for the dial 24 and serve a bearing member for rotation against a portion 40 of the dial housing 16.
- the dial housing 16 includes windows 42, 44 for allowing the numbers on the back side of the dial plate portion 40 to be viewed via a reflection in the mirror 28.
- An LED indicator light 46 is provided and may be used in various manners to provide indication of combination input.
- a battery 48 such as a standard 9-volt battery, is removably placed in the dial housing 16 through a battery door 50, and provides power for the electronic circuit and servo motor to be discussed below.
- a rotatable spindle shaft 52 is provided for transferring rotation of the dial 24 to the bolt retraction hardware upon input of a correct combination code.
- FIG. 3 illustrates a rear perspective view of the lock 10 and illustrates a lock bolt 54 extending from the lock casing 14.
- the shaft 52 extends through a back side 56 of the lock casing 14 and is secured with a nut 58 in such a manner as to allow rotation of the shaft 52 when the dial 24 is rotated.
- the back side of the dial plate portion 32 includes combination numbers, which, when reflected in the mirror 28 ( FIG. 2 ) will be viewable by the user.
- FIG. 4 illustrates a longitudinal cross-sectional view, in perspective, of the lock 10, including the various components described above.
- the spindle shaft 52 is shown extending completely through the dial housing 16 and the lock casing 14.
- One or more spindle sleeves 60 receive the spindle shaft 52 along its length. Such sleeves 60 will help prevent undesired entry into the lock casing 14 and access of the various bolt retraction hardware if the shaft 52 were to be removed.
- the lock casing 14 is shown in exploded form to illustrate the circuit board 62 and various lock bolt retraction hardware, including a bolt guide member 64, the bolt 54, a bolt retraction gear 68, an actuator 70, a pivot block 72, and a cover 74 for fastening to the pivot block 72 and covering a rotating output element 76 of the actuator 70.
- the lock casing 14 includes a front casing half 14a and a rear casing half 14b.
- the circuit board 62 is placed on a front inner side of the front casing half 14a. Therefore, if a drill is used to drill into the lock casing 14 from outside of the door 12, the drill bit will first contact the circuit board 62 and likely disable the lock 10, thereby making entry more difficult.
- a spindle gear 78 is coupled for rotation with the spindle shaft 52 and the connected dial 24 ( FIG. 4 ).
- the spindle gear 78 meshes with a first gear portion 80a of a drive gear element 80.
- An opposite or second gear portion 80b of the drive gear element 80 extends through an aperture 82 in the rear casing half 14b, such that it may mesh with the bolt retraction gear 68 upon input of a correct combination code as shown in FIGS. 6 and 7 .
- An encoder 84 is used to detect input of combination codes via rotation of the shaft 52 and is used in conjunction with suitable controller circuitry on the circuit board 62.
- the actuator 70 Upon entry of the correct combination code as recognized by the encoder and controller circuitry, the actuator 70 will be activated such that its output element 76 rotates.
- the output element 76 includes a pin 76a that will rotate through a slot 86 in the pivot block 72 ( FIG. 5 ) and also move through a slot 68c in the bolt retraction gear 68. Normally this pin 76a would prevent rotation of the bolt retraction gear 68, as shown in FIG 8A , for example.
- the bolt retraction gear 68 is slightly spring-loaded, with, for example, a torsion spring of low spring force, such that the bolt retraction gear 68 is biased in the clockwise direction to the position shown in FIG. 8B upon activation of the actuator 70.
- the dial 24 may be manually rotated such that the drive gear element 80 is rotated through engagement of the first drive gear portion 80a with the spindle gear 78.
- the spindle gear 78 is coupled to the shaft 52 by a key 88.
- the bolt retraction gear 68 When the bolt retraction gear 68 is engaged with the drive gear portion 80b as shown in FIG. 8B , the bolt retraction gear 68 will rotate about its pivot axis 68a, and a pin 68b secured to the bolt retraction gear 68 will rise out of a position seated in a recess 64a of the bolt guide member 64 and the end 90a of a curved slot or pin guide 90 of the bolt guide member 64 ( FIG. 5 ).
- the pin 68b also extends through a slot 54a in the bolt 54, and as the bolt retraction gear 68 rotates, the pin 68b rides upwardly in the slot 54a as viewed in FIGS. 8B and 8C and simultaneously moves the bolt 54 into the lock casing 14 and through the bolt guide member 64. Rotating the dial 24, shaft 52, and gears 78, 80, 68 in the opposite direction will extend the bolt 54 back to its fully-extended position and the bolt retraction gear 68 will be returned to the initial position shown in FIG. 8A by the pin 76a.
- the output element 76 is spring-loaded by use of a spring 92 such that when the actuator 70 is deactivated, the spring 92 will return the pin 76a to the initial position shown in FIG. 9A , and the spring force of the output element 76 is sufficiently strong to force the bolt retraction gear 68 to the initial position shown in FIG. 8A .
- the use of a dial plate portion 32 and mirror 28 allows for placement of the battery 48 in the dial housing 16 in a space efficient manner.
- the lock casing portions 14a, 14b are mechanically fixed together, such that if they are pried apart, the mechanical elements (not shown) fixing the lock casing 14 together will break. It will be appreciated that the bolts 94 extending through the lock casing 14 do not fasten the lock casing portions 14a, 14b together, but merely serve to secure the lock casing 14 to, for example, a door 12.
- Another manner of surreptitious entry into locks may involve using a hammer from the outside to force the spindle shaft 52 through the lock 10.
- the actuator 70 is a servo motor 70 in the illustrated embodiment.
- the use of the servo motor 70 such as a micro-servo as opposed, for example, to a stepper motor, has advantages.
- the servo motor 70 includes a relatively complex gear train that involves several revolutions in order to rotate the output element 76 through just a partial rotation as discussed above.
- the servo motor 70 would be difficult to activate in some surreptitious manner.
- the pin 68b used on the bolt retraction gear 68 rests in a recess in its home position with the lock bolt 54 extended as shown in FIG.
- the lock 10 further includes a circuit breaker device 96.
- the circuit breaker device 96 of the illustrated embodiment consists of a continuous conductive wire having a first end 96a and a second end 96b, each end 96a, 96b electrically connected to the circuit board 62.
- the circuit breaker device 96 is connected integrally into the primary controller circuits for the lock 10 such that if the circuit breaker device 96 is broken, the lock 10 will become inoperable.
- the circuit breaker device 96 is disposed adjacent to the spindle sleeve 60 that carries the spindle shaft 52 as the shaft 52 enters the lock casing 14.
- the circuit breaker device 96 is illustrated as a coil in FIG. 10 , the coil being wrapped around the spindle sleeve 60.
- the circuit breaker device 96 may also comprise a plurality of wires.
- FIGS. 11-14C another embodiment of a lock 110 is illustrated.
- the lock 110 includes many of the same elements as the first embodiment of the lock 10, such as the circuit board 62, bolt retraction gear 68, and actuator 70.
- reference numerals remain the same for similar elements in the various embodiments described.
- This embodiment of the lock 110 follows the same bolt retraction sequence illustrated in FIGS. 6-9C and described above, and the lock 110 includes a different lock bolt 112 and a retracting bolt shield 114.
- the lock bolt 112 includes a slot 112a adapted to receive the pin 68b of the bolt retraction gear 68.
- the lock bolt 112 further includes a pair of opposing recesses 112b used in the retracting bolt shield 114 as described in detail below, and also a bolt extension 112c.
- the bolt extension 112c is coupled to the lock bolt 112 with threaded fasteners 116 that are disposed flush with the bolt extension 112c outer surface when the bolt extension 112c is placed on the lock bolt 112.
- the bolt extension 112c has a thickness of about one-tenth (0.100) to three-sixteenths (0.1875) of an inch.
- the bolt extension 112c can be added to the lock bolt 112 if necessary for the door 12 selected.
- the lock bolt 112 can be configured for use with any type of door.
- the mounting bolts 94 of the lock casing 14 are accessible from the back side 56 of the lock casing 14. An unauthorized person having access to this rear side 56 could remove the mounting screws 94 and replace the lock casing 14 with a lock body of a different mechanism, thereby compromising the lock 110.
- the lock 110 of the current embodiment includes the retracting bolt shield 114.
- the lock 110 includes a modified bolt guide member 118.
- the bolt guide member 118 continues to include a recess 118a and a curved slot 120 for engaging the pin 68b of the bolt retraction gear 68.
- the bolt guide member 118 also has a pair of longitudinally-directed apertures 118b formed on opposing sides of the bolt guide member 118. These longitudinally-directed apertures 118b are in communication with laterally-directed slots 118c, the slots 188c extending from an edge of the bolt guide member 118 to longitudinal receptacles 122 holding the mounting bolts 94.
- the retracting bolt shield 114 includes a blocking member 124 with a non-circular aperture 124a, a first member 126 with a non-circular aperture 126a, and a non-circular drive rod 128 operatively coupling the blocking member 124 to the first member 126 at the non-circular apertures 124a, 126a.
- the drive rod 128 is positioned within one of the longitudinally-directed apertures 118b of the bolt guide member 118 while the blocking member 124 is at least partially disposed in one of the lateral slots 118c, as most clearly shown in FIG. 13 .
- the drive rod 128 and associated apertures 124a, 126a are hexagonal in the illustrated embodiment, but one skilled in the art will appreciate that any alternative non-circular shape may be chosen for these elements.
- the first member 126 has a first end 126b configured to engage the lock bolt 112 and more specifically, one of the recesses 112b in the lock bolt.
- FIGS. 14A-14C The operation of the retracting bolt shield 114 is illustrated in a sequence of illustrations at FIGS. 14A-14C .
- FIG. 14A the bolt retraction gear 68 has just been engaged with the gear train 78, 80 to begin the process of retracting the lock bolt 112.
- the blocking members 124 completely conceal the mounting bolts 94 on the bolt-side of the lock 110.
- FIG. 14B the bolt retraction gear 68 has moved to partially retract the lock bolt 112.
- the blocking members 124 continue to conceal the mounting bolts 94 because the first member first end 126b has moved within the lock bolt recess 112b but has not been rotated.
- the recesses 112b force the first members 126 to rotate to the position shown in FIG. 14C .
- the drive rods 128 have transferred the motion of the first members 126 to the blocking members 124 to reveal the mounting bolts 94.
- the spindle gear 78 drives the bolt retraction gear 68 and lock bolt 112 back to an extended or locked position, the first members 126 again engage the lock bolt recesses 112b and rotate back to the position in FIG. 14A .
- the retracting bolt shield 114 prevents an unauthorized person attempting to tamper with the lock 110 by removing the mounting bolts 94.
- the retracting bolt shield 114 could include a second pair of blocking members coupled for rotation with the bolt-side blocking members 124 through a simple linkage.
- the bolt-side blocking members 124 would conceal the mounting bolts 94 on one side of the lock 110 when the lock bolt 112 is extended and the second pair of blocking members would conceal the mounting bolts 94 on the opposite side of the lock 110 when the lock bolt is retracted.
- an unauthorized person would need to be able to operate the lock 110 using the combination in order to have access to all four mounting bolts 94.
- the lock 210 operates a bolt retraction sequence substantially similar to the above described bolt retraction sequence shown in FIGS. 8A-9C , with some modifications.
- the lock 210 includes a spindle gear 212, a drive gear 214 having a first drive gear portion 214a adapted to engage the spindle gear 212 and a second drive gear portion 214b, and a bolt retraction gear 216 adapted to engage the second drive gear portion 214b.
- the bolt retraction gear 216 includes a pivot axis 216a and a pin 216b which rides in corresponding slots 54a, 90 of the lock bolt 54 and the bolt guide member 64.
- the bolt retraction gear 216 remains engaged with the second drive gear portion 214b when the lock bolt 54 is fully extended as shown in FIG. 15A .
- a two-tooth relief 218 is provided on the spindle gear 212 and a corresponding two-tooth relief 220 is provided on the first drive gear portion 214a.
- the relief 220 in the first drive gear portion 214a is oriented as shown in FIG. 15A to prevent engagement of the spindle gear 212 and the drive gear 214 while the spindle gear 212 is rotated during combination entry. Thus, no audible information from gear collisions is provided to an unauthorized person rotating the dial 24.
- the actuator 70 does not immediately rotate the output pin 76a out of the path of the bolt retraction gear 216. Instead, the controller waits until the spindle gear 212 has been rotated to the position shown in FIG. 15B , wherein the relief 218 on the spindle gear 212 is positioned facing towards the drive gear 214. At this position, the controller sends the signal to the actuator 70 to rotate output element 76 and pin 76a out of the path of bolt retraction gear 216 as previously illustrated in FIGS. 9A-9C . The bolt retraction gear 216 then rotates slightly downwards as shown in FIG.
- FIGS. 16A-17C An additional embodiment of the lock 310 is illustrated in FIGS. 16A-17C .
- the lock 310 is similar to the lock 210 of the previous embodiment and includes a spindle gear 312, a drive gear 314 having a first drive gear portion 314a adapted to engage the spindle gear 312 and a second drive gear portion 314b, and a bolt retraction gear 316 adapted to engage the second drive gear portion 314b.
- the spindle gear 312 and first drive gear portion 314a are also provided with corresponding two-tooth reliefs 318, 320 in the same manner as explained above with respect to lock 210.
- the actuator 70 and associated output element 76 have been removed.
- the second drive gear portion 314b includes a two-tooth relief 322 that is adapted to prevent engagement of the bolt retraction gear 316 and the second drive gear portion 314a when the lock bolt 54 is fully extended as shown in FIGS. 16A and 17A .
- the bolt retraction gear 316 is initially positioned in a similar location as the previous embodiment, with gear teeth facing the second drive gear portion 314b for engagement.
- the drive gear 314 of the current embodiment is mounted on an input shaft 324, and an actuator 326 is operatively coupled to the drive gear 314 at the opposing end of the shaft 324.
- the actuator 326 is located proximate to the circuit board 62 and is adapted to rotate the shaft 324 and the drive gear 314.
- the actuator 326 is a low-powered driving device such as a geared servo motor, a non-geared servo motor, or an air core rotary solenoid.
- the circuit board 62 waits until the dial 24 is rotated such that the relief 318 in the spindle gear 312 faces the first drive gear portion 314a as shown in FIGS. 16B and 17B . Then the circuit board 62 sends a signal to the actuator 326, causing the shaft 324 and the drive gear 314 to rotate into engagement with both the spindle gear 312 and the bolt retraction gear 316 simultaneously as shown in FIGS. 16B and 17B . As the user continues to rotate the dial 24, the spindle gear 312 drives the drive gear 314 and the bolt retraction gear 316 to the position shown in FIGS. 16C and 17C , wherein the lock bolt 54 has been fully retracted.
- This embodiment of the lock 310 also removes all audible noise from gear engagement or collisions during combination entry, and the actuator 326 requires as little as 10% of the operating energy as the servo motor 70 of previous embodiments. Therefore, this embodiment of the lock 310 further thwarts unauthorized entry through the door.
- the lock 410 includes a lock casing 414 formed of substantially translucent material such that the interior components of the lock 410 are visible from the outside of the lock casing 414.
- the translucent lock casing 414 will clearly show evidence of the attempted entry as shown in FIG. 18 .
- a drilled hole 412 through the casing 414 is visible proximate to the lock bolt 54.
- the drilled hole 412 in the translucent lock casing 414 cannot be patched or filled with material to conceal the attempted entry without detection by a person inspecting the rear side 56 of the lock casing 414.
- the circuit board 62 and encoder 84 are programmed to control the lock 10 by a specific set of operating instructions diagrammed in FIGS. 19A-20 .
- the lock power activates and obtains authentication information or the proper combination values X, Y, Z from memory along with a value P that represents the number of incorrect combination entries attempted since the last unlocking of the lock.
- the LED 46 will blink red P times to allow the authorized users of the lock to know when other persons have unsuccessfully attempted to break through the door 12.
- the LED 46 will blink red and green for one dial revolution and then turn solid green.
- the controller detects that counterclockwise rotation has stopped and clockwise rotation has begun, then the controller stores the entered dial value at the stop as X 1 and repeats the process to obtain Y 1 and Z 1 values. Then the controller verifies if the entered dial values X 1 , Y 1 , Z 1 match the proper combination values X, Y, Z. If the values do not match, the LED 46 blinks red for 10 seconds and the P value is increased by 1 before the lock 10 power deactivates. If the values do match, then the servo motor 70 or actuator 326 is engaged to allow the bolt 54 to be retracted, and the P value is set to zero. As long as the lock bolt 54 remains in the opened or retracted position, the LED 46 will blink red once every ten seconds to indicate that the lock 10 is in the open position. Once the lock bolt 54 is moved back to the extended position, the lock power is deactivated.
- a configuration mode is activated when a change key is inserted into the lock 10.
- the lock power activates and obtains the proper combination values X, Y, Z from memory.
- the lock follows the procedure described above in FIGS. 19A and 19B to obtain user input values X 1 , Y 1 , Z 1 .
- the process of obtaining user input repeats and values X 2 , Y 2 , Z 2 are stored.
- the controller sets the proper combination values X, Y, Z equal to the average of the two sets of user input values. Consequently, the configuration mode verifies that the desired new combination is set correctly.
- lock 10, 110, 210, 310, 410 can be operated with alternative user input devices 15 instead of the mechanical lock dial 24.
- an electronic keypad could be positioned on the outside of the door 12 for electronic entry of combination values.
- the user input device 15 could include a fingerprint or retinal scan verification device.
- the internal components of the lock 10 positioned within the lock casing 14 operate as described above regardless of the chosen user input device 15.
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Description
- The present invention relates generally to locks, and more specifically, to high security locks adapted for use in safes and other security structures or areas.
- Documents of an extremely sensitive nature and items having a high proprietary value often need to be stored within a safe or other structure. The structure typically includes a lock mechanism, and the structure is generally designed to be accessible only by a select few individuals who are entrusted with a predetermined combination code that facilitates the unlocking of the mechanism. Unauthorized persons will use simple lock picking tools as well as sophisticated equipment that can apply high mechanical forces or an electric or magnetic field to the lock mechanism in order to manipulate the components within the lock mechanism.
- As the tools utilized in lock picking have become more sophisticated, lock mechanisms have been improved to resist these sophisticated lock picking methods. Mechanical and/or electrical elements have been used in locks to provide complicated barriers to a potential unauthorized person attempting to break into the structure. However, unauthorized persons continue to attack even these improved lock mechanisms, including drilling into the interior of the lock mechanism through lock casing openings. Locations on the lock casing that are subject to frequent attack include the mounting bolts and the spindle mount where a spindle shaft from the combination dial enters the lock casing.
- Additionally, unauthorized persons attempting to break into the structure have been known to use devices that apply high acceleration to the combination dial in order to overcome security elements of the lock mechanism. The high accelerations of the gear train can sometimes force the gears controlling a lock bolt to rotate and unlock the lock mechanism without a proper combination entry. These high acceleration devices can include so-called auto-dialers, which rapidly attempt every possible combination until the proper combination has been detected. Even if the unauthorized person is unsuccessful at opening the lock mechanism in this manner, the rapid collisions of gear teeth in a gear train caused by high acceleration can frequently damage the gear train and lead to improper operations of the lock mechanism. The collisions of the gear teeth may also provide audible information that an unauthorized person can detect and use to determine the programmed combination that actuates the unlocking of the mechanism.
- Furthermore, improved lock mechanisms must comply with highly stringent government specifications in order to be used on government-controlled structures and containment devices. For example, the stringency of relevant U.S. government specifications is readily appreciated from Federal Specification FF-L-2740, dated October 12, 1989, titled "FEDERAL SPECIFICATION: LOCKS, COMBINATION" for the use of all federal agencies. Section 3.4.7, "Combination Redial," requires that once the lock bolt has been extended to its locked position "it shall not be possible to reopen the lock without completely redialing the locked combination." Section 3.6.1.3, "Emanation Analysis," requires that the lock shall not emit any sounds or other signals which may be used to surreptitiously open the lock within a specified period. Further U.S. government requirements are included in Federal Specification FF-L-2937, dated January 31, 2005, titled "FEDERAL SPECIFICATION: COMBINATION LOCK, MECHANICAL." In that document, Section 4.7.4, "Endurance Test," requires that a sample lock be "cycled through fifty combination changes including three open and close verifications after each change" to ensure proper combination setting functionality. Section 4.7.7, "Resistance to Unauthorized Opening Test," requires that the lock cannot be opened by mechanical manipulation or autodialing of a computer-assisted device for at least a period of 20 hours.
- Consequently, it would be desirable to improve on a high security lock to address the frequently-attacked areas of the lock mechanism while remaining in full compliance with typical government specifications.
-
EP 0522115 describes a locking mechanism for a safe which has an engagement element movable from a disengaged position to an engageable position thereof. When the engagement element is put in its engageable element to drive a lock-bolt to an unlocking position. The engagement element is connected to an electric motor having two magnetic detents, corresponding to the disengaged and engageable position. The required electrical power is generated solely during the course of the user inputting a code to put the engagement element into its engageable position. Once the engagement is obtained, the movement of the lock-bolt to its unlocking position is obtained strictly manually. A subsequent unlocking requires the provision of a correct code. - The invention is defined by the claims.
- The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and, together with a general description of the invention given above, and the detailed description of the embodiments given below, serve to explain the principles of the invention.
-
FIG. 1 is a perspective view of a high-security lock constructed in accordance with one embodiment of the invention; -
FIG. 2 is an exploded perspective view of the lock illustrated inFIG. 1 ; -
FIG. 3 is an exploded rear perspective view of the lock; -
FIG. 4 is a perspective cross-sectional view of the lock taken along the longitudinal central axis thereof; -
FIG. 5 is an exploded perspective view of the lock casing and bolt retraction hardware; -
FIG. 6 is a perspective view, partially exploded to illustrate various bolt retraction hardware; -
FIG. 7 is a perspective view of the bolt retraction assembly; -
FIG. 8A is an elevational view partially broken away illustrating the bolt retraction hardware with the bolt in an extended or locked position; -
FIG. 8B is an elevational view similar toFIG. 8A , illustrating an initial portion of the bolt retraction sequence; -
FIG. 8C is an elevational view similar toFIG. 8B , illustrating the fully retracted position of the bolt and associated bolt retraction hardware; -
FIG. 9A is a cross-sectional view taken along theline 9A-9A ofFIG. 8A ; -
FIG. 9B is a cross-sectional view taken alongline 9B-9B ofFIG. 8B ; -
FIG. 9C is a cross-sectional view taken alongline 9C-9C ofFIG. 8C ; -
FIG. 10 is a rear perspective view of the lock ofFIG. 1 with the lock casing partially exploded to illustrate a circuit breaker boil; -
FIG. 11 is an exploded perspective view of an alternative embodiment of the lock casing and bolt retraction hardware; -
FIG. 12 is an exploded view of the bolt retraction hardware and retracting mounting screw shield ofFIG. 11 ; -
FIG. 13 is a perspective view of the bolt retraction hardware and retracting mounting screw shield ofFIG. 11 ; -
FIG. 14A is an elevational view illustrating the retracting mounting screw shield ofFIG. 11 in a locked position of the bolt retraction hardware; -
FIG. 14B is an elevational view similar toFIG. 14A , illustrating an initial portion of the bolt retraction sequence; -
FIG. 14C is an elevational view similar toFIG. 14A , illustrating the fully retracted position of the bolt and associated rotation of the retracting mounting screw shield; -
FIG. 15A is an elevational view partially broken away of another alternative embodiment of the lock, illustrating the bolt retraction hardware with the bolt in an extended or locked position; -
FIG. 15B is an elevational view similar toFIG. 15A , illustrating an initial portion of the bolt retraction sequence; -
FIG. 15C is an elevational view similar toFIG. 15A , illustrating the fully retracted position of the bolt and associated bolt retraction hardware; -
FIG. 16A is an elevational view partially broken away of an alternative embodiment of the lock, illustrating the bolt retraction hardware with the bolt in an extended or locked position; -
FIG. 16B is an elevational view similar toFIG. 16A , illustrating an initial portion of the bolt retraction sequence; -
FIG. 16C is an elevational view similar toFIG. 16A , illustrating the fully retracted position of the bolt and associated bolt retraction hardware; -
FIG. 17A is a reverse elevational view partially broken away of the lock ofFIG. 16A , illustrating the bolt retraction hardware with the bolt in an extended or locked position; -
FIG. 17B is a reverse elevational view similar toFIG. 16A , illustrating an initial portion of the bolt retraction sequence; -
FIG. 17C is a reverse elevational view similar toFIG. 16A , illustrating the fully retracted position of the bolt and associated bolt retraction hardware; -
FIG. 18 is a rear perspective view of another alternative embodiment of the lock, illustrating visible damage from unauthorized tampering with the lock case; -
FIGS. 19A and19B are a flowchart illustrating the control logic of the operational mode for one embodiment of the lock; and -
FIG. 20 is a flowchart illustrating the control logic of the configuration mode for one embodiment of the lock. -
FIG. 1 illustrates one embodiment of ahigh security lock 10 coupled, for example, to astructure door 12, and including alock casing 14 and auser input device 15. Theuser input device 15 of this embodiment of thelock 10 is amechanical lock dial 24 disposed within adial housing 16. Adust cover 18 may be coupled to thedial housing 16 in a removable manner using suitable snap-fit connectors 20, for example, and includes anaperture 22 through which thelock dial 24 extends. Thedial 24 may be rotated to input a numerical combination and, as will be explained below, the numbers of the combination are viewable through awindow 26 in thedial housing 16 via a reflection in amirror 28. -
FIG. 2 illustrates an exploded view of theuser input device 15 and its contents. Thedial 24 includes a protrudingportion 30 which may be manually gripped by a user, and aplate portion 32 that includes thenumerical combination numbers 34 on the backside thereof (seeFIG. 3 ). Abrass insert 36 is rigidly secured to thedial 24 usingscrew fasteners 38. Thebrass insert 36 can provide weight for thedial 24 and serve a bearing member for rotation against aportion 40 of thedial housing 16. Thedial housing 16 includeswindows dial plate portion 40 to be viewed via a reflection in themirror 28. AnLED indicator light 46 is provided and may be used in various manners to provide indication of combination input. Abattery 48, such as a standard 9-volt battery, is removably placed in thedial housing 16 through a battery door 50, and provides power for the electronic circuit and servo motor to be discussed below. Arotatable spindle shaft 52 is provided for transferring rotation of thedial 24 to the bolt retraction hardware upon input of a correct combination code. -
FIG. 3 illustrates a rear perspective view of thelock 10 and illustrates alock bolt 54 extending from thelock casing 14. Theshaft 52 extends through aback side 56 of thelock casing 14 and is secured with anut 58 in such a manner as to allow rotation of theshaft 52 when thedial 24 is rotated. As further shown inFIG. 3 , the back side of thedial plate portion 32 includes combination numbers, which, when reflected in the mirror 28 (FIG. 2 ) will be viewable by the user. -
FIG. 4 illustrates a longitudinal cross-sectional view, in perspective, of thelock 10, including the various components described above. In particular, thespindle shaft 52 is shown extending completely through thedial housing 16 and thelock casing 14. One ormore spindle sleeves 60 receive thespindle shaft 52 along its length.Such sleeves 60 will help prevent undesired entry into thelock casing 14 and access of the various bolt retraction hardware if theshaft 52 were to be removed. - Turning to
FIG. 5 , thelock casing 14 is shown in exploded form to illustrate thecircuit board 62 and various lock bolt retraction hardware, including abolt guide member 64, thebolt 54, abolt retraction gear 68, anactuator 70, apivot block 72, and acover 74 for fastening to thepivot block 72 and covering arotating output element 76 of theactuator 70. Thelock casing 14 includes afront casing half 14a and arear casing half 14b. Thecircuit board 62 is placed on a front inner side of thefront casing half 14a. Therefore, if a drill is used to drill into the lock casing 14 from outside of thedoor 12, the drill bit will first contact thecircuit board 62 and likely disable thelock 10, thereby making entry more difficult. Aspindle gear 78 is coupled for rotation with thespindle shaft 52 and the connected dial 24 (FIG. 4 ). Thespindle gear 78 meshes with afirst gear portion 80a of adrive gear element 80. An opposite orsecond gear portion 80b of thedrive gear element 80 extends through anaperture 82 in therear casing half 14b, such that it may mesh with thebolt retraction gear 68 upon input of a correct combination code as shown inFIGS. 6 and7 . Anencoder 84 is used to detect input of combination codes via rotation of theshaft 52 and is used in conjunction with suitable controller circuitry on thecircuit board 62. - Turning to
FIGS. 6 and7 , taken in conjunction withFIGS. 8A-8C and9A-9C , the bolt retraction sequence will now be discussed. Upon entry of the correct combination code as recognized by the encoder and controller circuitry, theactuator 70 will be activated such that itsoutput element 76 rotates. Theoutput element 76 includes apin 76a that will rotate through aslot 86 in the pivot block 72 (FIG. 5 ) and also move through aslot 68c in thebolt retraction gear 68. Normally thispin 76a would prevent rotation of thebolt retraction gear 68, as shown inFIG 8A , for example. However, when theoutput element 76 of theactuator 70 rotates and moves thepin 76a in a downward direction, as viewed inFIGS. 8A-8C , this allows thebolt retraction gear 68 to move or rotate clockwise as viewed inFIGS. 8A-8C , such that it may engage with thesecond portion 80b of thedrive gear element 80. Although not shown in the drawings, thebolt retraction gear 68 is slightly spring-loaded, with, for example, a torsion spring of low spring force, such that thebolt retraction gear 68 is biased in the clockwise direction to the position shown inFIG. 8B upon activation of theactuator 70. Once thegears FIG. 8B , thedial 24 may be manually rotated such that thedrive gear element 80 is rotated through engagement of the firstdrive gear portion 80a with thespindle gear 78. As shown inFIGS. 8A-8C , thespindle gear 78 is coupled to theshaft 52 by a key 88. When thebolt retraction gear 68 is engaged with thedrive gear portion 80b as shown inFIG. 8B , thebolt retraction gear 68 will rotate about itspivot axis 68a, and apin 68b secured to thebolt retraction gear 68 will rise out of a position seated in arecess 64a of thebolt guide member 64 and theend 90a of a curved slot or pinguide 90 of the bolt guide member 64 (FIG. 5 ). Thepin 68b also extends through aslot 54a in thebolt 54, and as thebolt retraction gear 68 rotates, thepin 68b rides upwardly in theslot 54a as viewed inFIGS. 8B and8C and simultaneously moves thebolt 54 into thelock casing 14 and through thebolt guide member 64. Rotating thedial 24,shaft 52, and gears 78, 80, 68 in the opposite direction will extend thebolt 54 back to its fully-extended position and thebolt retraction gear 68 will be returned to the initial position shown inFIG. 8A by thepin 76a. In this regard, theoutput element 76 is spring-loaded by use of aspring 92 such that when theactuator 70 is deactivated, thespring 92 will return thepin 76a to the initial position shown inFIG. 9A , and the spring force of theoutput element 76 is sufficiently strong to force thebolt retraction gear 68 to the initial position shown inFIG. 8A . - The use of a
dial plate portion 32 andmirror 28 allows for placement of thebattery 48 in thedial housing 16 in a space efficient manner. Thelock casing portions lock casing 14 together will break. It will be appreciated that thebolts 94 extending through thelock casing 14 do not fasten thelock casing portions lock casing 14 to, for example, adoor 12. Another manner of surreptitious entry into locks may involve using a hammer from the outside to force thespindle shaft 52 through thelock 10. In the present lock, however, this does not move thecasing 14, and, therefore, there would be no need for a "relock" feature as used in other high-security locks. Theactuator 70 is aservo motor 70 in the illustrated embodiment. The use of theservo motor 70, such as a micro-servo as opposed, for example, to a stepper motor, has advantages. For example, theservo motor 70 includes a relatively complex gear train that involves several revolutions in order to rotate theoutput element 76 through just a partial rotation as discussed above. Thus, theservo motor 70 would be difficult to activate in some surreptitious manner. Thepin 68b used on thebolt retraction gear 68 rests in a recess in its home position with thelock bolt 54 extended as shown inFIG. 8A . Thus, if thelock bolt 54 is forced inwardly in a surreptitious attempt to compromise thelock 10, the force will not be exerted against the gear train, but rather against thebolt guide member 64, which may be designed and configured to withstand high forces. - With reference to
FIG. 10 , thelock 10 further includes acircuit breaker device 96. Thecircuit breaker device 96 of the illustrated embodiment consists of a continuous conductive wire having afirst end 96a and a second end 96b, eachend 96a, 96b electrically connected to thecircuit board 62. Thecircuit breaker device 96 is connected integrally into the primary controller circuits for thelock 10 such that if thecircuit breaker device 96 is broken, thelock 10 will become inoperable. As seen inFIG. 10 , thecircuit breaker device 96 is disposed adjacent to thespindle sleeve 60 that carries thespindle shaft 52 as theshaft 52 enters thelock casing 14. An unauthorized person trying to circumvent thelock 10 may remove theuser input device 15 and then attempt to drill into thespindle sleeve 60 at the front opening of thelock casing 14. However, any attempt to surreptitiously enter thelock casing 14 through thespindle sleeve 60 will cause thecircuit break device 96 to break, thereby thwarting this method of attack on thelock 10. Thecircuit breaker device 96 is illustrated as a coil inFIG. 10 , the coil being wrapped around thespindle sleeve 60. One skilled in the art will recognize that thecircuit breaker device 96 may also comprise a plurality of wires. - With reference to
FIGS. 11-14C , another embodiment of alock 110 is illustrated. As most clearly shown in the exploded view of thelock casing 14 and inner lock hardware ofFIG. 11 , thelock 110 includes many of the same elements as the first embodiment of thelock 10, such as thecircuit board 62,bolt retraction gear 68, andactuator 70. In this application, reference numerals remain the same for similar elements in the various embodiments described. This embodiment of thelock 110 follows the same bolt retraction sequence illustrated inFIGS. 6-9C and described above, and thelock 110 includes adifferent lock bolt 112 and aretracting bolt shield 114. Thelock bolt 112 includes aslot 112a adapted to receive thepin 68b of thebolt retraction gear 68. Thelock bolt 112 further includes a pair of opposingrecesses 112b used in the retractingbolt shield 114 as described in detail below, and also abolt extension 112c. Thebolt extension 112c is coupled to thelock bolt 112 with threadedfasteners 116 that are disposed flush with thebolt extension 112c outer surface when thebolt extension 112c is placed on thelock bolt 112. In the embodiment ofFIG. 11 , thebolt extension 112c has a thickness of about one-tenth (0.100) to three-sixteenths (0.1875) of an inch. Various government contractors have manufactured locks for the United States government, and one of the primary lock manufacturers designed lock bolts that were flush with the lock casing when retracted, while another primary lock manufacturer designed lock bolts that extended about three-sixteenths (0.1875) of an inch beyond the lock casing when retracted. Thebolt extension 112c can be added to thelock bolt 112 if necessary for thedoor 12 selected. Thus, thelock bolt 112 can be configured for use with any type of door. - As shown in the previous embodiment, the mounting
bolts 94 of thelock casing 14 are accessible from theback side 56 of thelock casing 14. An unauthorized person having access to thisrear side 56 could remove the mountingscrews 94 and replace thelock casing 14 with a lock body of a different mechanism, thereby compromising thelock 110. To address this problem, thelock 110 of the current embodiment includes the retractingbolt shield 114. As shown inFIGS. 11 and12 , thelock 110 includes a modifiedbolt guide member 118. Thebolt guide member 118 continues to include arecess 118a and acurved slot 120 for engaging thepin 68b of thebolt retraction gear 68. Thebolt guide member 118 also has a pair of longitudinally-directedapertures 118b formed on opposing sides of thebolt guide member 118. These longitudinally-directedapertures 118b are in communication with laterally-directed slots 118c, the slots 188c extending from an edge of thebolt guide member 118 tolongitudinal receptacles 122 holding the mountingbolts 94. The retractingbolt shield 114 includes a blockingmember 124 with anon-circular aperture 124a, afirst member 126 with a non-circular aperture 126a, and anon-circular drive rod 128 operatively coupling the blockingmember 124 to thefirst member 126 at thenon-circular apertures 124a, 126a. Thedrive rod 128 is positioned within one of the longitudinally-directedapertures 118b of thebolt guide member 118 while the blockingmember 124 is at least partially disposed in one of the lateral slots 118c, as most clearly shown inFIG. 13 . Thedrive rod 128 and associatedapertures 124a, 126a are hexagonal in the illustrated embodiment, but one skilled in the art will appreciate that any alternative non-circular shape may be chosen for these elements. Thefirst member 126 has afirst end 126b configured to engage thelock bolt 112 and more specifically, one of therecesses 112b in the lock bolt. - The operation of the retracting
bolt shield 114 is illustrated in a sequence of illustrations atFIGS. 14A-14C . InFIG. 14A thebolt retraction gear 68 has just been engaged with thegear train lock bolt 112. When thelock bolt 112 is in the extended position, the blockingmembers 124 completely conceal the mountingbolts 94 on the bolt-side of thelock 110. InFIG. 14B , thebolt retraction gear 68 has moved to partially retract thelock bolt 112. In this operational state, the blockingmembers 124 continue to conceal the mountingbolts 94 because the first memberfirst end 126b has moved within thelock bolt recess 112b but has not been rotated. As thebolt retraction gear 68 continues to retract thelock bolt 112, therecesses 112b force thefirst members 126 to rotate to the position shown inFIG. 14C . Once thelock bolt 112 has been fully retracted in that position, thedrive rods 128 have transferred the motion of thefirst members 126 to the blockingmembers 124 to reveal the mountingbolts 94. As thespindle gear 78 drives thebolt retraction gear 68 andlock bolt 112 back to an extended or locked position, thefirst members 126 again engage the lock bolt recesses 112b and rotate back to the position inFIG. 14A . Thus, the retractingbolt shield 114 prevents an unauthorized person attempting to tamper with thelock 110 by removing the mountingbolts 94. - In a similar non-illustrated embodiment, the retracting
bolt shield 114 could include a second pair of blocking members coupled for rotation with the bolt-side blocking members 124 through a simple linkage. In that embodiment, the bolt-side blocking members 124 would conceal the mountingbolts 94 on one side of thelock 110 when thelock bolt 112 is extended and the second pair of blocking members would conceal the mountingbolts 94 on the opposite side of thelock 110 when the lock bolt is retracted. Thus, an unauthorized person would need to be able to operate thelock 110 using the combination in order to have access to all four mountingbolts 94. - With reference to
FIGS. 15A-15C , an additional embodiment of thelock 210 is illustrated. Thelock 210 operates a bolt retraction sequence substantially similar to the above described bolt retraction sequence shown inFIGS. 8A-9C , with some modifications. Thelock 210 includes aspindle gear 212, adrive gear 214 having a firstdrive gear portion 214a adapted to engage thespindle gear 212 and a seconddrive gear portion 214b, and abolt retraction gear 216 adapted to engage the seconddrive gear portion 214b. Like the previous embodiments, thebolt retraction gear 216 includes a pivot axis 216a and apin 216b which rides in correspondingslots lock bolt 54 and thebolt guide member 64. Unlike the previous embodiments, thebolt retraction gear 216 remains engaged with the seconddrive gear portion 214b when thelock bolt 54 is fully extended as shown inFIG. 15A . A two-tooth relief 218 is provided on thespindle gear 212 and a corresponding two-tooth relief 220 is provided on the firstdrive gear portion 214a. Therelief 220 in the firstdrive gear portion 214a is oriented as shown inFIG. 15A to prevent engagement of thespindle gear 212 and thedrive gear 214 while thespindle gear 212 is rotated during combination entry. Thus, no audible information from gear collisions is provided to an unauthorized person rotating thedial 24. - Once a correct combination has been entered, the
actuator 70 does not immediately rotate theoutput pin 76a out of the path of thebolt retraction gear 216. Instead, the controller waits until thespindle gear 212 has been rotated to the position shown inFIG. 15B , wherein therelief 218 on thespindle gear 212 is positioned facing towards thedrive gear 214. At this position, the controller sends the signal to theactuator 70 to rotateoutput element 76 andpin 76a out of the path ofbolt retraction gear 216 as previously illustrated inFIGS. 9A-9C . Thebolt retraction gear 216 then rotates slightly downwards as shown inFIG. 15B , thereby rotating thedrive gear 214 and moving the teeth of the firstdrive gear portion 214a into position for meshing with thespindle gear 212. As thespindle gear 212 continues to rotate with thedial 24, the firstdrive gear portion 214a is driven to the location shown inFIG. 15C , which also translates through the seconddrive gear portion 214b into downward rotation of thebolt retraction gear 216. Furthermore, thepin 216b forces thelock bolt 54 to retract in the position shown inFIG. 15C , thus completing the bolt retraction sequence of thelock 210. - An additional embodiment of the
lock 310 is illustrated inFIGS. 16A-17C . Thelock 310 is similar to thelock 210 of the previous embodiment and includes aspindle gear 312, adrive gear 314 having a firstdrive gear portion 314a adapted to engage thespindle gear 312 and a seconddrive gear portion 314b, and abolt retraction gear 316 adapted to engage the seconddrive gear portion 314b. Thespindle gear 312 and firstdrive gear portion 314a are also provided with corresponding two-tooth reliefs lock 310, theactuator 70 and associatedoutput element 76 have been removed. The seconddrive gear portion 314b includes a two-tooth relief 322 that is adapted to prevent engagement of thebolt retraction gear 316 and the seconddrive gear portion 314a when thelock bolt 54 is fully extended as shown inFIGS. 16A and17A . Thebolt retraction gear 316 is initially positioned in a similar location as the previous embodiment, with gear teeth facing the seconddrive gear portion 314b for engagement. - When the
lock bolt 54 is fully extended, the orientation of thereliefs drive gear portions drive gear 314 from both thespindle gear 312 and thebolt retraction gear 316. Thedrive gear 314 of the current embodiment is mounted on aninput shaft 324, and anactuator 326 is operatively coupled to thedrive gear 314 at the opposing end of theshaft 324. Theactuator 326 is located proximate to thecircuit board 62 and is adapted to rotate theshaft 324 and thedrive gear 314. Theactuator 326 is a low-powered driving device such as a geared servo motor, a non-geared servo motor, or an air core rotary solenoid. When a proper combination has been entered into thelock 310, thecircuit board 62 waits until thedial 24 is rotated such that therelief 318 in thespindle gear 312 faces the firstdrive gear portion 314a as shown inFIGS. 16B and17B . Then thecircuit board 62 sends a signal to theactuator 326, causing theshaft 324 and thedrive gear 314 to rotate into engagement with both thespindle gear 312 and thebolt retraction gear 316 simultaneously as shown inFIGS. 16B and17B . As the user continues to rotate thedial 24, thespindle gear 312 drives thedrive gear 314 and thebolt retraction gear 316 to the position shown inFIGS. 16C and17C , wherein thelock bolt 54 has been fully retracted. This embodiment of thelock 310 also removes all audible noise from gear engagement or collisions during combination entry, and theactuator 326 requires as little as 10% of the operating energy as theservo motor 70 of previous embodiments. Therefore, this embodiment of thelock 310 further thwarts unauthorized entry through the door. - Referring to
FIG. 18 , an alternative embodiment of thelock 410 is illustrated. Thelock 410 includes alock casing 414 formed of substantially translucent material such that the interior components of thelock 410 are visible from the outside of thelock casing 414. In the event of an unauthorized entry into thelock casing 414 or an attempt to break thelock 410, thetranslucent lock casing 414 will clearly show evidence of the attempted entry as shown inFIG. 18 . A drilledhole 412 through thecasing 414 is visible proximate to thelock bolt 54. Unlike an opaque lock casing, the drilledhole 412 in thetranslucent lock casing 414 cannot be patched or filled with material to conceal the attempted entry without detection by a person inspecting therear side 56 of thelock casing 414. Furthermore, an inspection of thelock 410 through thetranslucent lock casing 414 will reveal any internal tampering or problems with the components of thelock 410. One having skill in the art will appreciate that thetranslucent casing 414 of the current embodiment can be used with any of the previous embodiments described to further discourage unauthorized tampering with the lock. - For each of the embodiments of
lock lock dial 24 for theuser input device 15 as described above, thecircuit board 62 andencoder 84 are programmed to control thelock 10 by a specific set of operating instructions diagrammed inFIGS. 19A-20 . In the operational mode ofFIGS. 19A and19B , once a counterclockwise rotation of thelock dial 24 is detected, the lock power activates and obtains authentication information or the proper combination values X, Y, Z from memory along with a value P that represents the number of incorrect combination entries attempted since the last unlocking of the lock. TheLED 46 will blink red P times to allow the authorized users of the lock to know when other persons have unsuccessfully attempted to break through thedoor 12. After these penalty blinks, theLED 46 will blink red and green for one dial revolution and then turn solid green. Once the controller detects that counterclockwise rotation has stopped and clockwise rotation has begun, then the controller stores the entered dial value at the stop as X1 and repeats the process to obtain Y1 and Z1 values. Then the controller verifies if the entered dial values X1, Y1, Z1 match the proper combination values X, Y, Z. If the values do not match, theLED 46 blinks red for 10 seconds and the P value is increased by 1 before thelock 10 power deactivates. If the values do match, then theservo motor 70 oractuator 326 is engaged to allow thebolt 54 to be retracted, and the P value is set to zero. As long as thelock bolt 54 remains in the opened or retracted position, theLED 46 will blink red once every ten seconds to indicate that thelock 10 is in the open position. Once thelock bolt 54 is moved back to the extended position, the lock power is deactivated. - Referring to
FIG. 20 , a configuration mode is activated when a change key is inserted into thelock 10. The lock power activates and obtains the proper combination values X, Y, Z from memory. Once a counterclockwise rotation of the dial is detected, the lock follows the procedure described above inFIGS. 19A and19B to obtain user input values X1, Y1, Z1. After a five second pause, the process of obtaining user input repeats and values X2, Y2, Z2 are stored. Then the controller sets the proper combination values X, Y, Z equal to the average of the two sets of user input values. Consequently, the configuration mode verifies that the desired new combination is set correctly. - A person having skill in the art will recognize that the various embodiments of the
lock user input devices 15 instead of themechanical lock dial 24. For example, an electronic keypad could be positioned on the outside of thedoor 12 for electronic entry of combination values. Alternatively, theuser input device 15 could include a fingerprint or retinal scan verification device. The internal components of thelock 10 positioned within thelock casing 14 operate as described above regardless of the chosenuser input device 15. - While the present invention has been illustrated by a description of several embodiments, and while such embodiments have been described in considerable detail, additional advantages and modifications will readily appear to those skilled in the art. For example, the configuration mode detailed in
FIG. 20 may be modified to require three sets of user input values to average together in order to set a new combination.
Claims (15)
- A locking mechanism (10; 110; 210; 310; 410) comprising:a lock bolt (54; 112) movable between extended and retracted positions;a bolt retraction gear (68) operatively coupled to the lock bolt (54) and movable between engagement and disengagement positions;a manually-driven gear train (78,80) adapted to engage the bolt retraction gear (68) in the engagement position and drive the lock bolt (54) between the extended and retracted positions;a user input device (15) adapted to receive user input information;a controller (62) adapted to store authorization information and verify user input information; andan actuator (70) having a rotatable output element (76), characterized in that the bolt retraction gear (68) is biased towards the engagement position, and in that the rotatable output element (76) blocks movement of the bolt retraction gear (68) towards the engagement position until the controller (62) verifies that the user input information matches the stored authorization information.
- The locking mechanism (10; 110; 210; 310; 410) of claim 1, wherein the bolt retraction gear (68) is spring-biased towards the engagement position.
- The locking mechanism (10; 110; 210; 310) of claim 1, wherein the manually-driven gear train comprises a manually driven-spindle gear (78) and a drive gear (80) engaged with the bolt retraction gear (68), the drive gear (80) including a relief portion and movable between an engagement position with the spindle gear (78) and a disengagement position where the relief portion faces the spindle gear (78), the drive gear (80) being biased towards the engagement position by the bolt retraction gear (68).
- The locking mechanism (10; 110; 210; 310; 410) of claim 3, wherein the drive gear (80) comprises a first drive gear portion (80a) adapted to be engaged with the spindle gear (78) and an opposing second drive gear portion (80b) adapted to be engaged with the bolt retraction gear (68) in the engagement position.
- The locking mechanism (10; 110; 210; 310;410) of claim 3 or 4, wherein the spindle gear (78) includes a relief portion, and the actuator (70) is adapted to move the bolt retraction gear (68) to rotate the drive gear (80) from the disengagement position to the engagement position only when the relief portion on the spindle gear (78) faces the drive gear (80).
- The locking mechanism (10; 110; 210; 310; 410) of one of claims 2 to 5, wherein the bolt retraction gear (68) further comprises a slot (68c) and the rotatable output element (76) further comprises a blocking pin (76a), the blocking pin (76a) disposed in the slot (68c) of the bolt retraction gear (68) in the disengagement position to block movement of the bolt retraction gear (68), wherein the rotating output element (76) slides the blocking pin (76a) out of the slot (68c) in the bolt retraction gear (68) as the actuator (70) moves the bolt retraction gear (68) from the disengagement position to the engagement position.
- The locking mechanism (10; 110; 210; 310; 410) of one of claims 2 to 6, wherein the user input device (15) is a rotatable lock dial (24) coupled to the manually-driven gear train (78, 80), and wherein the lock dial (24) is rotated to enter user input information and to move the lock bolt (54; 112) from the extended position to the retracted position when the user input information is verified.
- The locking mechanism (10; 110; 210; 310; 410) of one of claims 2 to 7, wherein the lock bolt (54) further comprises a slot (54a) and the bolt retraction gear (68) further comprises a pivot (68a) and a retraction pin (68b), the retraction pin (68b) sliding along the slot (54a) in the lock bolt (54) as the bolt retraction gear (68) rotates about the pivot (68b) to retract and extend the lock bolt (54).
- The locking mechanism (110) of one of claims 2 to 8, wherein the lock bolt (112) includes a recess (112b), and the locking mechanism further comprises:a lock casing (14) surrounding the actuator (70), the controller (62), the manually-driven gear train (78, 80), and the bolt retraction gear (68), the lock casing (14) including a mounting bolt receptacle; and
a retracting bolt shield (114) including a first member (126) coupled to a blocking member (124), the blocking member (124) movable between a blocking position over the mounting bolt (94) in the bolt receptacle to a non-blocking position outside of the bolt receptacle, the first member (126) disposed within the lock bolt recess (112b) and adapted to drive the blocking member (124) from the blocking position to the non-blocking position as the lock bolt (112) moves from the extended position to the retracted position. - The locking mechanism (110) of claim 9, wherein the controller further comprises a circuit board (62), the lock casing (14) further comprises a spindle sleeve (60) adjacent to the circuit board (62), the manually-driven gear train (78, 80) further comprises a spindle shaft (52) extending through the spindle sleeve (60) outside the lock casing (14), and the locking mechanism further comprises:
a circuit breaker device (96) adjacent to the spindle sleeve (60) and wired into the controller, wherein drilling through the spindle sleeve (60) will break the circuit breaker device (96) and render the controller inoperative. - The locking mechanism (110) of claim 9 or 10, further comprising:a lock bolt extension (112c) coupled to the lock bolt (112), the combined lock bolt and extension projecting beyond the lock casing (14) in the retracted position,wherein the lock bolt (112) is flush with the lock casing (14) in the retracted position.
- A method of operating a lock including a user input device, a manually-driven gear train, a bolt retraction gear biased towards engagement with the manually-driven gear train, a lock bolt engaged with the bolt retraction gear, a blocking member, and a controller, the method comprising:blocking the bolt retraction gear with the blocking member to prevent engagement of the bolt retraction gear with the manually-driven gear train;recording user input information from the user input device;verifying that the user input information matches authorization information stored in the controller;disengaging the blocking member from the bolt retraction gear to permit engagement of the bolt retraction gear with the manually-driven gear train after the user input information has been verified; anddriving the lock bolt to a retracted position by manually driving the gear train and the bolt retraction gear.
- The method of claim 12, wherein the lock further includes a retractable bolt shield and at least one mounting bolt in a bolt receptacle, the method further comprising:driving the lock bolt to an extended position by manually driving the gear train and the bolt retraction gear; andsliding the retractable bolt shield over the mounting bolt in the bolt receptacle as the lock bolt moves from the retracted position to the extended position.
- The method of claim 12 or 13, wherein the lock includes a light-emitting diode (LED), and the method further comprises:storing a parameter related to the number of unsuccessful authorization attempts by the controller since the last successful authorization andactivating a single red LED to blink a number of times equal to the stored parameter prior to recording user input information from the user input device.
- The method of one of claims 12 to 14, wherein the lock further comprises a change key, the method further comprises:inserting the change key into the lock to activate a configuration mode;recording a first set of user input information from the user input device;recording a second set of user input information from the user input device;averaging the first and second set of user input information together; andreplacing the authorization information stored in the controller with the averaged user input information
Priority Applications (3)
Application Number | Priority Date | Filing Date | Title |
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EP20157129.6A EP3699374B1 (en) | 2008-09-05 | 2009-09-04 | High security lock |
EP18186685.6A EP3418477B1 (en) | 2008-09-05 | 2009-09-04 | High security lock |
EP20157145.2A EP3677737A1 (en) | 2008-09-05 | 2009-09-04 | High security lock |
Applications Claiming Priority (2)
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US9473008P | 2008-09-05 | 2008-09-05 | |
PCT/US2009/056060 WO2010028258A1 (en) | 2008-09-05 | 2009-09-04 | High security lock |
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EP18186685.6A Division EP3418477B1 (en) | 2008-09-05 | 2009-09-04 | High security lock |
EP20157145.2A Division EP3677737A1 (en) | 2008-09-05 | 2009-09-04 | High security lock |
EP20157129.6A Division EP3699374B1 (en) | 2008-09-05 | 2009-09-04 | High security lock |
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EP2331780A1 EP2331780A1 (en) | 2011-06-15 |
EP2331780A4 EP2331780A4 (en) | 2014-12-31 |
EP2331780B1 true EP2331780B1 (en) | 2018-08-22 |
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EP18186685.6A Active EP3418477B1 (en) | 2008-09-05 | 2009-09-04 | High security lock |
EP20157145.2A Withdrawn EP3677737A1 (en) | 2008-09-05 | 2009-09-04 | High security lock |
EP09812293.0A Active EP2331780B1 (en) | 2008-09-05 | 2009-09-04 | High security lock |
EP20157129.6A Active EP3699374B1 (en) | 2008-09-05 | 2009-09-04 | High security lock |
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EP18186685.6A Active EP3418477B1 (en) | 2008-09-05 | 2009-09-04 | High security lock |
EP20157145.2A Withdrawn EP3677737A1 (en) | 2008-09-05 | 2009-09-04 | High security lock |
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EP20157129.6A Active EP3699374B1 (en) | 2008-09-05 | 2009-09-04 | High security lock |
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EP (4) | EP3418477B1 (en) |
JP (1) | JP5703223B2 (en) |
CA (3) | CA3077927C (en) |
WO (1) | WO2010028258A1 (en) |
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2009
- 2009-09-04 EP EP18186685.6A patent/EP3418477B1/en active Active
- 2009-09-04 CA CA3077927A patent/CA3077927C/en active Active
- 2009-09-04 US US12/554,372 patent/US8091392B2/en active Active
- 2009-09-04 CA CA2731448A patent/CA2731448C/en active Active
- 2009-09-04 EP EP20157145.2A patent/EP3677737A1/en not_active Withdrawn
- 2009-09-04 EP EP09812293.0A patent/EP2331780B1/en active Active
- 2009-09-04 EP EP20157129.6A patent/EP3699374B1/en active Active
- 2009-09-04 WO PCT/US2009/056060 patent/WO2010028258A1/en active Application Filing
- 2009-09-04 JP JP2011526234A patent/JP5703223B2/en active Active
- 2009-09-04 CA CA3023141A patent/CA3023141C/en active Active
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2011
- 2011-12-20 US US13/331,222 patent/US8516863B2/en active Active
Non-Patent Citations (1)
Title |
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None * |
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EP2331780A4 (en) | 2014-12-31 |
JP2012502206A (en) | 2012-01-26 |
CA3023141C (en) | 2020-12-29 |
CA3077927C (en) | 2023-07-11 |
EP3699374A1 (en) | 2020-08-26 |
CA2731448C (en) | 2019-01-08 |
US8091392B2 (en) | 2012-01-10 |
JP5703223B2 (en) | 2015-04-15 |
CA2731448A1 (en) | 2010-03-11 |
EP3677737A1 (en) | 2020-07-08 |
EP3418477A1 (en) | 2018-12-26 |
CA3023141A1 (en) | 2010-03-11 |
CA3077927A1 (en) | 2010-03-11 |
US20120180536A1 (en) | 2012-07-19 |
US20100064744A1 (en) | 2010-03-18 |
US8516863B2 (en) | 2013-08-27 |
EP2331780A1 (en) | 2011-06-15 |
EP3699374B1 (en) | 2021-05-12 |
EP3418477B1 (en) | 2020-02-19 |
WO2010028258A1 (en) | 2010-03-11 |
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